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EP0357964B1 - Proportional valve - Google Patents

Proportional valve Download PDF

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Publication number
EP0357964B1
EP0357964B1 EP89114404A EP89114404A EP0357964B1 EP 0357964 B1 EP0357964 B1 EP 0357964B1 EP 89114404 A EP89114404 A EP 89114404A EP 89114404 A EP89114404 A EP 89114404A EP 0357964 B1 EP0357964 B1 EP 0357964B1
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EP
European Patent Office
Prior art keywords
pressure
connection
control
valve
housing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
EP89114404A
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German (de)
French (fr)
Other versions
EP0357964A2 (en
EP0357964A3 (en
Inventor
Hermann Sanzenbacher
Roland Ing. Schempp
Berhold Dipl.-Ing. Pfuhl (Fh)
Hans Dipl.-Ing. Bangert
Volkmar Dipl.-Ing. Leutner
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Robert Bosch GmbH
Original Assignee
Robert Bosch GmbH
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Publication date
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Publication of EP0357964A2 publication Critical patent/EP0357964A2/en
Publication of EP0357964A3 publication Critical patent/EP0357964A3/en
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Publication of EP0357964B1 publication Critical patent/EP0357964B1/en
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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05DSYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
    • G05D16/00Control of fluid pressure
    • G05D16/20Control of fluid pressure characterised by the use of electric means
    • G05D16/2006Control of fluid pressure characterised by the use of electric means with direct action of electric energy on controlling means
    • G05D16/2013Control of fluid pressure characterised by the use of electric means with direct action of electric energy on controlling means using throttling means as controlling means
    • G05D16/2024Control of fluid pressure characterised by the use of electric means with direct action of electric energy on controlling means using throttling means as controlling means the throttling means being a multiple-way valve

Definitions

  • the invention relates to a proportional valve of the type defined in the preamble of claim 1.
  • the pressure-responsive part is of the pressure transducer or pressure sensor arranged in the magnet housing via the pressure tube which axially displaceably accommodates the magnet armature of the electromagnet with the valve housing and there via suitable bores in connection with the connection opening at which the pressure is to be recorded.
  • the armature chamber is thus constantly subjected to the pressure to be regulated, so that the magnetic pressure tube must have a strength which corresponds to the load with maximum pressure.
  • Proportional directional control valves in slide construction are also known (DE 28 40 831 C2), in which the control slide is assigned a displacement sensor or displacement sensor for detecting the control slide stroke.
  • the control error between the actual position value and the position setpoint of the control spool corrects the control of the proportional solenoid.
  • Such a proportional directional control valve is used as a volume flow or quantity control valve.
  • an electropneumatic pressure regulator which works with an integrated pressure sensor and controls a secondary pressure in the outlet proportional to an electrical input signal.
  • This pressure regulator works with a poppet valve body, via the guide tube of which control pressure medium is branched from the inlet to a pilot-controlling 3-way, 3-position solenoid valve which controls the connections to a servo piston.
  • the pressure sensor measures the pressure in an assigned pressure chamber on the servo piston.
  • the pressure pipe In the pilot solenoid valve, the pressure pipe here can be exposed to the full inlet pressure, which is, however, only in a small pressure range from 0 to 10 bar.
  • the two-stage design of the pressure regulator with a pulsed 3/3 solenoid valve and poppet valve bodies results in a relatively complex construction.
  • the proportional valve according to the invention with the characterizing features of claim 1 has the advantage that the pressure tube accommodating the magnet armature is bypassed by the separate pressure channel for the pressure transducer running in the valve housing.
  • the magnetic pressure tube does not need to be designed for the maximum operating pressure, but only for a pressure which is significantly lower, which can be achieved with conventional magnetic pressure tubes.
  • the pressure transducer in the magnet housing is also inserted radially from the outside and an electronics housing that accommodates the pressure regulator is attached to the magnet housing in such a way that it covers the pressure transducer, the electrical components are located Signal outputs of the pressure transducer protected in the electronics housing, and the shortest signal lines are given to the pressure regulator. This almost completely eliminates external interference
  • the valve according to the invention can be changed without any design changes and only by correspondingly influencing the Control electronics regulate volume flows on the one hand as a volume valve and on the other hand limit or reduce pressures as a pressure valve.
  • the pressure When used as a quantity valve, the pressure has a limiting effect. If the set pressure setpoint is reached, the output of the pressure controller has a limiting effect on the position setpoint.
  • the proportional valve automatically changes from a quantity function to a pressure control function. If a maximum position setpoint is specified, the proportional valve according to the invention can work as a pure pressure control valve.
  • a simple implementation of the coupling of the position controller and pressure controller is achieved according to a preferred embodiment of the invention in that the output of the position controller is connected to the proportional magnet via an amplifier stage and a limiter is provided with two inputs and with one output, one input of which with the position setpoint signal and its other input is assigned the output signal of the pressure regulator and its output is connected to the setpoint input of the position controller.
  • the limiter is designed such that the smallest input signal is switched through to its output. If the maximum position setpoint is specified, the output of the pressure controller controls the position control loop and the pressure control loop works as a higher-level control loop (cascade). If the maximum pressure setpoint is specified, only the position control loop works and the proportional valve has a quantity function. If the pressure setpoint is reached, the pressure control loop has a limiting effect.
  • the proportional valve can be used on the one hand as a 3/2-way proportional valve with a quantity function and on the other hand as a pressure control valve with a pressure reducing function, depending on how the setpoints for the pressure and the position controller are set. Due to the separate pressure channel running in the valve housing, the pressure transducer is acted upon by the pressure at the third connection opening, which corresponds to the A connection in an N6 connection hole pattern.
  • the setpoint of the position controller is selected to a maximum and the proportional valve according to the invention is thus operated as a pressure valve two applications possible. If the connecting channel between the two connection openings remains blocked and the third connection opening is connected to a hydraulic working circuit, the valve works as a by the two-edge control of the control slide Pressure control or pressure reducing valve. The pressure at the third connection opening or in the hydraulic working circuit connected to it is regulated to a predetermined pressure below the operating pressure of the pressure source. However, if the blocking of the connecting channel is released and the third connection opening is closed, only one control edge of the control slide is effective. The proportional valve works as a pressure relief valve and limits the pressure at the inlet of the first connection opening to a predetermined value.
  • a fourth uncontrolled connection opening is provided in the valve housing, which corresponds to connection B in the N6 connection hole pattern, and if the pressure channel is designed to be connectable to the fourth connection opening, then the pressure transducer can also be acted upon by an external pressure. If the fourth connection opening is not occupied, it must be blocked off. If it is pressurized, the connection of the pressure channel to the third connection opening must be blocked.
  • the proportional valve according to the invention represents a compact and less susceptible to malfunction, which can be used with various functions, such as volume flow control, pressure control and pressure limitation, as a pilot and as a main control valve. Double functions, such as volume flow control with pressure limitation, are possible.
  • the proportional valve shown in longitudinal section in FIG. 2 has a valve housing 10 with a standardized hole pattern (N6) to which a magnet housing 11 is flanged axially.
  • a radially projecting electronics housing 12 is laterally attached to the magnet housing 11.
  • the valve housing 10 has an axially extending central bore 13, in which three radial control bores 14, 15, 16 open, which lead to three connection openings 17, 18, 19.
  • the control bore 15 (FIG. 4) with an associated connection opening 18 is shown in FIG. 3, rotated through 90 ° into the plane of the control bores 14 and 16.
  • the connection opening 17 in Fig. 3 is rotated into the plane of the illustration.
  • FIG. 4 The control bore 15 with an associated connection opening 18
  • the first connection opening 17 is provided for connection to a pressure source (P), the second connection opening 18 for connection to a relief chamber (T) and the third connection opening 19 for connection to a hydraulic working circuit (A).
  • the first control bore 14 and the third control bore 16 are connected to one another by an axial transverse bore 20, which is introduced from the front side of the valve housing 10 and connects two radial extension sections 58, 59 of the control bores 14, 16 extending beyond the central bore 13.
  • the transverse bore 20 can be blocked or released by means of a sealing screw 21.
  • a pressure channel 22 also opens into the third control bore 16, specifically in its extension section 59, which is shown in FIG.
  • This pressure channel 22 opens at the end face of the valve housing 10 occupied by the magnet housing 11 and corresponds there with a connection bore 23 which leads in the magnet housing 11 to a pressure sensor or pressure sensor 24 which is integrated in the magnet housing 11, specifically on that of the electronics housing 12 occupied side is arranged.
  • the pressure-responsive part of the pressure sensor 24 communicates with the inside of the control bore 16 via the connection bore 23 and the pressure channel 22, so that it detects the liquid pressure prevailing in the third control bore 16.
  • a control slide 25 is axially displaceably guided and has two control edges 26, 27 for controlling the three connection openings 17 to 19.
  • the control slide 25 is each provided with an annular groove 28-30, the annular groove 28 being enclosed between the two control edges 26, 27, the annular groove 29 adjoining the control edge 26 and the annular groove 30 adjoining the control edge 28 connects.
  • Each annular groove 28-30 extends over a certain axial region of the control slide 25.
  • the control slide 25 is loaded on one end face by a return spring 31 which is supported on the housing side.
  • a plunger 32 On the other end face of the control slide 25 engages a plunger 32, which lies in an axial bore 33 aligned with the central bore 13 in the magnet housing 11 and is rigidly connected to the magnet armature 34 of a proportional magnet 35.
  • the axial bore 33 is designed as a stepped bore with three bore sections 331, 332 and 333.
  • the smallest diameter bore section 331 receives the plunger 32 and the adjoining bore section 332 with a medium diameter receives a magnetic pressure tube 36 in which the armature 34 is axially displaceably guided.
  • a displacement sensor or displacement sensor 37 In the third bore section 333 with the largest diameter, a displacement sensor or displacement sensor 37 is used, which closes the bore section 332 on the end face.
  • the inductive displacement sensor 37 has a central bore 38, in which a ferrite core 39, which is axially displaceable with the magnet armature 34, lies.
  • the electrical signal which can be removed from the displacement sensor 37 is a measure of the displacement path of the magnet armature 34 and plunger 32.
  • the magnet pressure tube 36 is surrounded by a magnet winding 40 which is wound on a coil carrier 41 which is coaxially seated on the magnet pressure tube 36.
  • the connections of the magnetic winding 40 (not shown) are the same as the electrical ones Connections of pressure sensor 24 and displacement sensor 37 guided into the electronics housing 12.
  • the entire electronic control system is accommodated in the electronics housing 12, which according to the block diagram in FIG. 1 comprises a pressure regulator 42, a position regulator 43, a limiter 44 and an amplifier output stage 45.
  • the output of the output stage 45 controls the magnetic winding 40 of the proportional magnet 35.
  • the output 46 of the pressure sensor 24, at which an electrical output signal proportional to the pressure in the control bore 16 is present, is fed to the actual value input 47 of the pressure regulator 42.
  • An electrical pressure setpoint signal which is proportional to a predetermined setpoint pressure, is present at the setpoint input 48 of the pressure regulator 42.
  • a linear relationship between the electrical pressure setpoint signal and the predetermined setpoint pressure e.g. a signal voltage of 4 V corresponds to a pressure setpoint of 100 bar.
  • the output 49 of the displacement sensor or displacement sensor 37 is connected to the actual value input 50 of the position controller 43.
  • the output of the position controller 43 is fed to the amplifier output stage 45.
  • the output 52 of the limiter 44 which also has two inputs 53 and 54, is located at the setpoint input 51 of the position controller 43.
  • the output 55 of the pressure regulator 42 is connected, while at the input 54 of the limiter 44 there is an electrical position setpoint signal which is proportional to a predefined position setpoint or control spool stroke.
  • the limiter 44 is designed such that in each case the smallest input signal is switched through to its output 54 at its two inputs 52, 53.
  • the electrical setpoint signals are supplied to the pressure controller 42 and the position controller 43 externally via a central connector (not shown) on the electronics housing 12. The power supply for the entire control electronics and the proportional magnet 35 takes place via the same connector.
  • the proportional valve works as a 3/2-way proportional valve with a higher-level pressure control circuit. Proportional to the position setpoint, a control slide position results via the position control loop, which determines the opening cross sections between the control bores 14 and 16 or 16 and 15. Both control edges 26 and 27 of the control slide 25 are effective, the control edge 25 determining the opening cross section between the control bores 14 and 16 and the control edge 27 determining the opening cross section between the control bores 16 and 15.
  • the pressure in the control bore 16 is detected by the pressure sensor 24.
  • the proportional valve operates with a quantity function, ie it sets a volume flow in the control bore 16 corresponding to the control slide stroke, which flows into a working circuit A via the connection opening 19.
  • the position setpoint is specified such that the pressure setpoint in the pressure controller 42 is reached before the position setpoint in the position controller 43, the output of the pressure controller 42 acts on the setpoint input 51 of the position controller 43 - since the limiter 44 switches the smallest input signal through to its output 52 - and limits the spool stroke and thus the pressure in the Control bore 16.
  • the proportional valve has now changed from its quantity function to a pressure control function.
  • the proportional valve Since the input signal with the lowest value dominates at the limiter 44, it is of course also possible to have the proportional valve operate as a pure pressure valve. For this purpose, only a maximum position setpoint is to be specified at the input 54 of the limiter 44, which is above the signal voltage with respect to the size of the electrical setpoint signal, which is specified by setting the pressure setpoint at the pressure regulator 42. In this case, only the output signal of the pressure regulator 42 acts on the position regulator 43 and the setting of the control slide 25 takes place in accordance with the desired pressure in the control bore 16.
  • the proportional valve is operated as a pressure valve in this way, two applications are possible.
  • a pressure control or pressure reducing function is achieved.
  • the pressure in the control bore 16 is adjusted to a predetermined target pressure which is below the pressure prevailing in the control bore 14. If, on the other hand, the connection opening 19 is closed and the sealing screw 21 in the transverse bore 20 is removed, the control bores 14 and 16 are in constant communication regardless of the control slide position. The pressure prevailing at the connection opening 17 is thus detected by the pressure sensor 24.
  • the control slide 25 carries out a so-called single-edge control, in which only the control edge 27 is effective and controls the opening cross section between the control bores 16 and 15.
  • the pressure valve works as a pressure relief valve and limits the pressure prevailing at the connection opening 17 a setpoint pressure predetermined by the pressure setpoint signal at the setpoint input 48 of the pressure regulator 42.
  • FIG. 4 the valve housing 10 'of the proportional valve is shown enlarged in a slightly modified version.
  • bores, channels and connection openings correspond to those in FIGS. 2 and 3, they are given the same reference numerals.
  • a fourth, but uncontrolled, connection opening 56 is provided in the valve housing 10, which is located at the location of the connection B in the N6 hole pattern.
  • the connection opening 56 delimits a blind bore 57 which is connected to the pressure channel 22 via a total of three connecting bores 61, 62, 63.
  • the connecting bores 61 and 63 are made as blind bores from one end face of the valve housing 10 and are closed there.
  • connection bore 61 penetrates the blind bore 57 and the connection bore 63 the radial extension section 59 of the control bore 16.
  • the two connection bores 61 and 63 are connected to one another by the connection bore 62, which is radially introduced as a blind bore and is closed at the end and which penetrates both connection bores 61, 63.
  • the connecting bore 62 runs offset to the central bore 13 and does not cut it.
  • the connecting hole 63 is placed so that its mouth lies in the radial extension section 59 near the mouth of the pressure channel 22.
  • a plug 64 inserted into the extension section 59, the mouths of the pressure channel 22 and the connecting bore 63 can be blocked off from the control bore 16 or the central bore 13.
  • the pressure sensor 24 can thus be subjected to an external pressure present at the fourth connection opening 56. If pressure detection at the other two connection openings 17, 19 is desired, the plug 64 must be removed and the fourth connection opening 56 closed.

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  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Automation & Control Theory (AREA)
  • Control Of Fluid Pressure (AREA)
  • Magnetically Actuated Valves (AREA)
  • Servomotors (AREA)

Description

Die Erfindung betrifft ein Proportionalventil der im Oberbegriff des Anspruchs 1 definierten Gattung.The invention relates to a proportional valve of the type defined in the preamble of claim 1.

Bei solchen als Proportionaldruckventile in Schieberbauweise verwendeten Proportionalventilen wird die Ansteuerung des Proportionalmagneten durch den Regelfehler zwischen Druckist- und Drucksollwert korrigiert, wodurch das Proportionalventil im geschlossenen Regelkreis arbeitet und damit hinsichtlich der Regelgröße "Druck" eine hohe Genauigkeit und Dynamik aufweist. Je nachdem an welcher Anschlußöffnung die Regelgröße erfaßt wird, kann ein solches Proportionalventil als Druckbegrenzer oder der Druckregler (Druckminderer) arbeiten.In the case of such proportional valves used as proportional pressure valves in slide valve design, the control of the proportional magnet is corrected by the control error between the actual pressure and the setpoint pressure, as a result of which the proportional valve works in a closed control loop and thus has a high degree of accuracy and dynamics with regard to the controlled variable "pressure". Depending on the connection opening at which the controlled variable is recorded, such a proportional valve can work as a pressure limiter or the pressure regulator (pressure reducer).

Bei einem bekannten Proportionalventil dieser Art (DE 31 36 174 A1) steht der auf Druck ansprechende Teil des im Magnetgehäuse angeordneten Druckaufnehmers oder Drucksensors über das den Magnetanker des Elektromagneten axial verschieblich aufnehmende Druckrohr mit dem Ventilgehäuse und dort über geeignete Bohrungen mit der Anschlußöffnung in Verbindung, an welcher der Druck erfaßt werden soll. Der Ankerraum ist damit ständig mit dem zu regelnden Druck beaufschlagt, so daß das Magnetdruckrohr eine Festigkeit aufweisen muß, die der Belastung mit Maximaldruck entspricht.In a known proportional valve of this type (DE 31 36 174 A1), the pressure-responsive part is of the pressure transducer or pressure sensor arranged in the magnet housing via the pressure tube which axially displaceably accommodates the magnet armature of the electromagnet with the valve housing and there via suitable bores in connection with the connection opening at which the pressure is to be recorded. The armature chamber is thus constantly subjected to the pressure to be regulated, so that the magnetic pressure tube must have a strength which corresponds to the load with maximum pressure.

Es sind auch schon Proportionalwegeventile in Schieberbauweise bekannt (DE 28 40 831 C2), bei denen dem Steuerschieber ein Wegaufnehmer oder Wegsensor zur Erfassung des Steuerschieberhubs zugeordnet ist. Der Regelfehler zwischen dem Lageistwert und dem Lagesollwert des Steuerschiebers korrigiert die Ansteuerung des Proportionalmagneten. Ein solches Proportionalwegeventil wird als Volumenstrom- oder Mengenregelventil verwendet.Proportional directional control valves in slide construction are also known (DE 28 40 831 C2), in which the control slide is assigned a displacement sensor or displacement sensor for detecting the control slide stroke. The control error between the actual position value and the position setpoint of the control spool corrects the control of the proportional solenoid. Such a proportional directional control valve is used as a volume flow or quantity control valve.

Ferner ist aus der Zeitschrift ENERGIE FLUIDE, No 9, Dec. 1985, Seiten 4 bis 6, ein elektropneumatischer Druckregler bekannt, der mit einem integrierten Drucksensor arbeitet und einen Sekundärdruck im Auslaß proportional zu einem elektrischen Eingangssignal steuert. Dieser Druckregler arbeitet mit einem Sitzventilkörper, über dessen Führungsrohr vom Einlaß Steuerdruckmittel zu einem vorsteuernden 3-Wege-3-Stellungs-Magnetventil abgezweigt wird, das die Verbindungen zu einem Servokolben steuert. Bei diesem zweistufigen Druckregler mißt der Drucksensor den Druck in einer zugeordneten Druckkammer am Servokolben. Im vorsteuernden Magnetventil kann dessen Druckrohr hier dem vollen Eingangsdruck ausgesetzt sein, der jedoch nur in einem geringen Druckbereich von 0 bis 10 bar liegt. Die zweistufige Ausführung des Druckreglers mit einem gepulsten 3/3-Magnetventil und Sitzventilkörpern ergibt eine relativ aufwendige Bauweise.Furthermore, from the magazine ENERGIE FLUIDE, No 9, Dec. 1985, pages 4 to 6, an electropneumatic pressure regulator is known which works with an integrated pressure sensor and controls a secondary pressure in the outlet proportional to an electrical input signal. This pressure regulator works with a poppet valve body, via the guide tube of which control pressure medium is branched from the inlet to a pilot-controlling 3-way, 3-position solenoid valve which controls the connections to a servo piston. With this two-stage pressure regulator, the pressure sensor measures the pressure in an assigned pressure chamber on the servo piston. In the pilot solenoid valve, the pressure pipe here can be exposed to the full inlet pressure, which is, however, only in a small pressure range from 0 to 10 bar. The two-stage design of the pressure regulator with a pulsed 3/3 solenoid valve and poppet valve bodies results in a relatively complex construction.

Weiterhin ist es aus der DE 30 47 110 A1 bekannt, bei einem Proportional-Druckregelventil den Magnetanker mit einem Wegeaufnehmer zu koppeln und den Hub des Sitzventilkörpers im Druckregelventil in einem Lageregelkreis zu steuern. Ein zusätzlicher Drucksensor ist hier nicht vorgesehen.Furthermore, it is known from DE 30 47 110 A1 to couple the magnetic armature to a displacement sensor in a proportional pressure control valve and to control the stroke of the seat valve body in the pressure control valve in a position control loop. An additional pressure sensor is not provided here.

Vorteile der ErfindungAdvantages of the invention

Das erfindungsgemäße Proportionalventil mit den kennzeichnenden Merkmalen des Anspruchs 1 hat den Vorteil, daß durch den im Ventilgehäuse verlaufenden separaten Druckkanal für den Druckaufnehmer das den Magnetanker aufnehmende Druckrohr umgangen wird. Dadurch braucht das Magnetdruckrohr nicht für den maximalen Betriebsdruck ausgelegt zu werden, sondern nur für einen Druck, der wesentlich niedriger liegt, was mit üblichen Magnetdruckrohren realisiert werden kann.The proportional valve according to the invention with the characterizing features of claim 1 has the advantage that the pressure tube accommodating the magnet armature is bypassed by the separate pressure channel for the pressure transducer running in the valve housing. As a result, the magnetic pressure tube does not need to be designed for the maximum operating pressure, but only for a pressure which is significantly lower, which can be achieved with conventional magnetic pressure tubes.

Wird noch der Druckaufnehmer im Magnetgehäuse von außen her radial eingesetzt und ein den Druckregler aufnehmendes Elektronikgehäuse auf dem Magnetgehäuse so befestigt, daß es den Druckaufnehmer überdeckt, so liegen die elektrischen Signalausgänge des Druckaufnehmers geschützt im Elektronikgehäuse, und kürzeste Signalleitungen sind zu dem Druckregler gegeben. Dadurch werden äußere Störeinflüsse fast vollständig beseitigtIf the pressure transducer in the magnet housing is also inserted radially from the outside and an electronics housing that accommodates the pressure regulator is attached to the magnet housing in such a way that it covers the pressure transducer, the electrical components are located Signal outputs of the pressure transducer protected in the electronics housing, and the shortest signal lines are given to the pressure regulator. This almost completely eliminates external interference

Durch die in den weiteren Ansprüchen aufgeführten Maßnahmen sind vorteilhafte Weiterbildungen und Verbesserungen des im Anspruch 1 angegebenen Proportionalventils möglich.The measures listed in the further claims allow advantageous developments and improvements of the proportional valve specified in claim 1.

Wird im Magnetgehäuse noch ein Wegaufnehmer integriert und ein Lageregler vorgesehen und Druck- und Lageregler elektrisch so miteinander verkoppelt, daß jeweils das Ausgangssignal mit der kleineren elektrischen Stellgröße maßgeblich für den Proportionalmagneten ist, so kann das erfindungsgemäße Ventil ohne konstruktive Änderung und nur durch entsprechende Beeinflussung der Steuer- und Regelelektronik einerseits als Mengenventil Volumenströme steuern und andererseits als Druckventil Drücke begrenzen oder mindern. Beim Einsatz als Mengenventil hat der Druck eine begrenzende Wirkung. Wird der eingestellte Drucksollwert erreicht, so wirkt der Ausgang des Druckreglers begrenzend auf den Lagesollwert. Das Proportionalventil geht automatisch von einer Mengenfunktion in eine Druckregelfunktion über. Wird ein maximaler Lagesollwert vorgegeben, so kann das erfindungsgemäße Proportionalventil als reines Druckregelventil arbeiten.If a position transducer is integrated in the magnet housing and a position controller is provided and the pressure and position controller are electrically coupled to one another so that the output signal with the smaller electrical manipulated variable is decisive for the proportional magnet, the valve according to the invention can be changed without any design changes and only by correspondingly influencing the Control electronics regulate volume flows on the one hand as a volume valve and on the other hand limit or reduce pressures as a pressure valve. When used as a quantity valve, the pressure has a limiting effect. If the set pressure setpoint is reached, the output of the pressure controller has a limiting effect on the position setpoint. The proportional valve automatically changes from a quantity function to a pressure control function. If a maximum position setpoint is specified, the proportional valve according to the invention can work as a pure pressure control valve.

Eine einfache Realisierung der Kopplung von Lageregler und Druckregler wird gemäß einer bevorzugten Ausführungsform der Erfindung dadurch erzielt, daß der Ausgang des Lagereglers über eine Verstärkerstufe mit dem Proportionalmagneten verbunden und ein Begrenzer mit zwei Eingängen und mit einem Ausgang vorgesehen wird, dessen einer Eingang mit dem Lagesollwertsignal und dessen anderer Eingang mit dem Ausgangssignal des Druckreglers belegt und dessen Ausgang mit dem Sollwerteingang des Lagereglers verbunden wird. Der Begrenzer ist derart ausgebildet, daß jeweils das kleinste Eingangssignal auf seinen Ausgang durchgeschaltet ist. Bei Vorgabe des maximalen Lagesollwerts steuert der Ausgang des Druckreglers den Lageregelkreis, und der Druckregelkreis arbeitet als übergeordneter Regelkreis (Kaskade). Wird der Drucksollwert maximal vorgegeben, so arbeitet ausschließlich der Lageregelkreis und das Proportionalventil hat Mengenfunktion. Wird der Drucksollwert erreicht, so wirkt der Druckregelkreis begrenzend.A simple implementation of the coupling of the position controller and pressure controller is achieved according to a preferred embodiment of the invention in that the output of the position controller is connected to the proportional magnet via an amplifier stage and a limiter is provided with two inputs and with one output, one input of which with the position setpoint signal and its other input is assigned the output signal of the pressure regulator and its output is connected to the setpoint input of the position controller. The limiter is designed such that the smallest input signal is switched through to its output. If the maximum position setpoint is specified, the output of the pressure controller controls the position control loop and the pressure control loop works as a higher-level control loop (cascade). If the maximum pressure setpoint is specified, only the position control loop works and the proportional valve has a quantity function. If the pressure setpoint is reached, the pressure control loop has a limiting effect.

Werden gemäß einer weiteren Ausführungsform der Erfindung im Ventilgehäuse drei Anschlußöffnungen vorgesehen und wird der Steuerschieber mit zwei Steuerkanten zum Steuern der drei Anschlußöffnungen versehen, so kann das Proportionalventil einerseits als 3/2-Wege-Proportionalventil mit Mengenfunktion und andererseits als Druckregelventil mit Druckminderfunktion eingesetzt werden, je nachdem, wie die Sollwerte für den Druck- und den Lageregler eingestellt werden. Durch den im Ventilgehäuse verlaufenden separaten Druckkanal wird der Druckaufnehmer vom Druck an der dritten Anschlußöffnung beaufschlagt, die in einem N6-Anschlußlochbild dem A-Anschluß entspricht.If, according to a further embodiment of the invention, three connection openings are provided in the valve housing and the control slide is provided with two control edges for controlling the three connection openings, the proportional valve can be used on the one hand as a 3/2-way proportional valve with a quantity function and on the other hand as a pressure control valve with a pressure reducing function, depending on how the setpoints for the pressure and the position controller are set. Due to the separate pressure channel running in the valve housing, the pressure transducer is acted upon by the pressure at the third connection opening, which corresponds to the A connection in an N6 connection hole pattern.

Wird gemäß einer weiteren Ausführungsform der Erfindung, bei welcher die erste und die dritte Anschlußöffnung über einen sperrbaren Kanal verbunden sind und die dritte Anschlußöffnung von der Anschlußseite her absperrbar ist, der Sollwert des Lagereglers maximal gewählt und damit das erfindungsgemäße Proportionalventil als Druckventil betrieben, so sind zwei Einsatzfälle möglich. Bleibt der Verbindungskanal zwischen den beiden Anschlußöffnungen gesperrt und die dritte Anschlußöffnung mit einem hydraulischen Arbeitskreis verbunden, so arbeitet das Ventil durch die Zweikantensteuerung des Steuerschiebers als Druckregel- oder Druckminderventil. Der Druck an der dritten Anschlußöffnung bzw. in dem damit verbundenen hydraulischen Arbeitskreis wird auf einen vorgegebenen Druck unterhalb des Betriebsdruckes der Druckquelle geregelt. Wird jedoch die Sperrung des Verbindungskanals aufgehoben und die dritte Anschlußöffnung verschlossen, so ist nur noch eine Steuerkante des Steuerschiebers wirksam. Das Proportionalventil arbeitet als Druckbegrenzungsventil und begrenzt den Druck am Eingang der ersten Anschlußöffnung auf einen vorgegebenen Wert.According to a further embodiment of the invention, in which the first and the third connection opening are connected via a lockable channel and the third connection opening can be blocked from the connection side, the setpoint of the position controller is selected to a maximum and the proportional valve according to the invention is thus operated as a pressure valve two applications possible. If the connecting channel between the two connection openings remains blocked and the third connection opening is connected to a hydraulic working circuit, the valve works as a by the two-edge control of the control slide Pressure control or pressure reducing valve. The pressure at the third connection opening or in the hydraulic working circuit connected to it is regulated to a predetermined pressure below the operating pressure of the pressure source. However, if the blocking of the connecting channel is released and the third connection opening is closed, only one control edge of the control slide is effective. The proportional valve works as a pressure relief valve and limits the pressure at the inlet of the first connection opening to a predetermined value.

Wird im Ventilgehäuse eine vierte ungesteuerte Anschlußöffnung vorgesehen, welche im N6-Anschlußlochbild dem Anschluß B entspricht, und wird der Druckkanal mit der vierten Anschlußöffnung verbindbar ausgebildet, so kann der Druckaufnehmer auch von einem externen Druck beaufschlagt werden. Wird die vierte Anschlußöffnung nicht belegt, so muß sie abgesperrt werden. Wird sie mit Druck belegt, so muß die Verbindung des Druckkanals zu der dritten Anschlußöffnung gesperrt werden.If a fourth uncontrolled connection opening is provided in the valve housing, which corresponds to connection B in the N6 connection hole pattern, and if the pressure channel is designed to be connectable to the fourth connection opening, then the pressure transducer can also be acted upon by an external pressure. If the fourth connection opening is not occupied, it must be blocked off. If it is pressurized, the connection of the pressure channel to the third connection opening must be blocked.

Das erfindungsgemäße Proportionalventil stellt eine kompakte und wenig störanfällige Baueinheit dar, die mit verschiedenen Funktionen, wie Volumenstromregelung, Druckregelung und Druckbegrenzung als Pilot- und als Hauptsteuerventil verwendet werden kann. Doppelfunktionen, wie z.B. Volumenstromregelung mit Druckbegrenzung, sind möglich.The proportional valve according to the invention represents a compact and less susceptible to malfunction, which can be used with various functions, such as volume flow control, pressure control and pressure limitation, as a pilot and as a main control valve. Double functions, such as volume flow control with pressure limitation, are possible.

Zeichnungdrawing

Die Erfindung ist anhand von in der Zeichnung dargestellten Ausführungsbeispielen im folgenden näher beschrieben. Es zeigen:

Fig. 1
ein Blockschaltbild zur Erläuterung der Funktion des als 3/2-Proportional-Wegeventil eingesetzten Proportionalventils,
Fig. 2
einen Längsschnitt des Proportionalventils, teilweise schematisiert,
Fig. 3
eine vergrößerte Darstellung eines Ausschnitts des Ventilgehäuses des Proportionalventils in Fig. 2 mit teilweise geänderter Steuerbohrungsführung zur Erläuterung der Steuerfunktion des Steuerschiebers.
Fig. 4
einen Längsschnitt des modifizierten Ventilgehäuses ohne Steuerschieber des Proportionalventils in Fig. 2 vergrößert dargestellt.
The invention is described in more detail below with reference to exemplary embodiments shown in the drawing. Show it:
Fig. 1
2 shows a block diagram to explain the function of the proportional valve used as a 3/2-way proportional valve,
Fig. 2
2 shows a longitudinal section of the proportional valve, partly schematized,
Fig. 3
an enlarged view of a section of the valve housing of the proportional valve in Fig. 2 with partially modified control bore guide to explain the control function of the spool.
Fig. 4
a longitudinal section of the modified valve housing without control slide of the proportional valve in Fig. 2 shown enlarged.

Beschreibung des AusführungsbeispielsDescription of the embodiment

Das in Fig. 2 im Längsschnitt dargestellte Proportionalventil weist ein Ventilgehäuse 10 mit genormtem Lochbild (N6) auf, an dem ein Magnetgehäuse 11 axial angeflanscht ist. Am Magnetgehäuse 11 ist seitlich ein radial wegstehendes Elektronikgehäuse 12 befestigt. Das Ventilgehäuse 10 weist eine axial verlaufende Mittelbohrung 13 auf, in welcher drei radiale Steuerbohrungen 14,15,16 münden, die zu drei Anschlußöffnungen 17,18,19 führen. In Fig. 2 sind lediglich die Steuerbohrungen 14 und 16 und die zugeordneten Anschlußöffnungen 17 und 19 zu sehen. Die Steuerbohrung 15 (Fig. 4) mit zugeordneter Anschlußöffnung 18 ist - um 90° in die Ebene der Steuerbohrungen 14 und 16 gedreht - in Fig. 3 dargestellt. Ebenso ist die Anschlußöffnung 17 in Fig. 3 in die Darstellungsebene gedreht. Wie Fig. 2 zeigt, liegt sie winkelig versetzt zur Steuerbohrung 14, die an ihrer Austrittsstelle am Ventilgehäuse 10 durch ein Stopfen 60 verschlossen ist. Die erste Anschlußöffnung 17 ist zum Anschluß an eine Druckquelle (P), die zweite Anschlußöffnung 18 zum Anschluß an einen Entlastungsraum (T) und die dritte Anschlußöffnung 19 zum Anschluß an einen hydraulischen Arbeitskreis (A) vorgesehen. Die erste Steuerbohrung 14 und die dritte Steuerbohrung 16 sind durch eine axiale Querbohrung 20 miteinander verbunden, die von der Stirnseite des Ventilgehäuses 10 her eingebracht ist und zwei radiale, über die Mittelbohrung 13 hinausgehende Verlängerungsabschnitte 58,59 der Steuerbohrungen 14,16 miteinander verbindet. Die Querbohrung 20 kann mittels einer Dichtungsschraube 21 gesperrt oder freigegeben werden. In der dritten Steuerbohrung 16 mündet noch ein Druckkanal 22, und zwar in deren Verlängerungsabschnitt 59, der in Fig. 3 um 90° um die Längsachse der dritten Steuerbohrung 16 gedreht in der Querschnittsebene der Steuerbohrungen 14 und 16 dargestellt ist. Dieser Druckkanal 22 mündet an der von dem Magnetgehäuse 11 belegten Stirnseite des Ventilgehäuses 10 und korrespondiert dort mit einer Anschlußbohrung 23, die im Magnetgehäuse 11 zu einem Druckaufnehmer oder Drucksensor 24 führt, der in dem Magnetgehäuse 11 integriert, und zwar auf der von dem Elektronikgehäuse 12 belegten Seite angeordnet ist. Über die Anschlußbohrung 23 und den Druckkanal 22 steht der auf Druck ansprechende Teil des Drucksensors 24 mit dem Innern der Steuerbohrung 16 in Verbindung, so daß er den in der dritten Steuerbohrung 16 herrschenden Flüssigkeitsdruck erfaßt.The proportional valve shown in longitudinal section in FIG. 2 has a valve housing 10 with a standardized hole pattern (N6) to which a magnet housing 11 is flanged axially. A radially projecting electronics housing 12 is laterally attached to the magnet housing 11. The valve housing 10 has an axially extending central bore 13, in which three radial control bores 14, 15, 16 open, which lead to three connection openings 17, 18, 19. In Fig. 2 are only the control holes 14 and 16 and assigned connection openings 17 and 19 to see. The control bore 15 (FIG. 4) with an associated connection opening 18 is shown in FIG. 3, rotated through 90 ° into the plane of the control bores 14 and 16. Likewise, the connection opening 17 in Fig. 3 is rotated into the plane of the illustration. As shown in FIG. 2, it is offset at an angle from the control bore 14, which is closed at its exit point on the valve housing 10 by a plug 60. The first connection opening 17 is provided for connection to a pressure source (P), the second connection opening 18 for connection to a relief chamber (T) and the third connection opening 19 for connection to a hydraulic working circuit (A). The first control bore 14 and the third control bore 16 are connected to one another by an axial transverse bore 20, which is introduced from the front side of the valve housing 10 and connects two radial extension sections 58, 59 of the control bores 14, 16 extending beyond the central bore 13. The transverse bore 20 can be blocked or released by means of a sealing screw 21. A pressure channel 22 also opens into the third control bore 16, specifically in its extension section 59, which is shown in FIG. 3 rotated by 90 ° about the longitudinal axis of the third control bore 16 in the cross-sectional plane of the control bores 14 and 16. This pressure channel 22 opens at the end face of the valve housing 10 occupied by the magnet housing 11 and corresponds there with a connection bore 23 which leads in the magnet housing 11 to a pressure sensor or pressure sensor 24 which is integrated in the magnet housing 11, specifically on that of the electronics housing 12 occupied side is arranged. The pressure-responsive part of the pressure sensor 24 communicates with the inside of the control bore 16 via the connection bore 23 and the pressure channel 22, so that it detects the liquid pressure prevailing in the third control bore 16.

In der Mittelbohrung 13 ist ein Steuerschieber 25 axial verschieblich geführt, der zwei Steuerkanten 26,27 zur Steuerung der drei Anschlußöffnungen 17 bis 19 aufweist. Beiderseits der beiden Steuerkanten 26,27 ist der Steuerschieber 25 jeweils mit einer Ringnut 28 - 30 versehen, wobei die Ringnut 28 zwischen den beiden Steuerkanten 26,27 eingeschlossen ist, die Ringnut 29 sich an die Steuerkante 26 und die Ringnut 30 sich an die Steuerkante 28 anschließt. Jede Ringnut 28 - 30 erstreckt sich über einen bestimmten axialen Bereich des Steuerschiebers 25. Auf der einen Stirnseite wird der Steuerschieber 25 von einer Rückstellfeder 31 belastet, die sich gehäuseseitig abstützt. An der anderen Stirnseite des Steuerschiebers 25 greift ein Stößel 32 an, der in einer mit der Mittelbohrung 13 fluchtenden Axialbohrung 33 im Magnetgehäuse 11 gleitend einliegt und mit dem Magnetanker 34 eines Proportionalmagneten 35 starr verbunden ist. Die Axialbohrung 33 ist als Stufenbohrung mit drei Bohrungsabschnitten 331,332 und 333 ausgeführt. Der im Durchmesser kleinste Bohrungsabschnitt 331 nimmt den Stößel 32 und der sich daran anschließende Bohrungsabschnitt 332 mit mittlerem Durchmesser ein Magnetdruckrohr 36 auf, in dem der Magnetanker 34 axial verschieblich geführt ist. In dem dritten Bohrungsabschnitt 333 mit größtem Durchmesser ist ein Wegaufnehmer oder Wegsensor 37 eingesetzt, der den Bohrungsabschnitt 332 stirnseitig verschließt. Der induktiv arbeitende Wegsensor 37 weist eine Zentralbohrung 38 auf, in der ein mit dem Magnetanker 34 axial verschieblicher Ferritkern 39 einliegt. Das an dem Wegsensor 37 abnehmbare elektrische Signal ist ein Maß für den Verschiebeweg von Magnetanker 34 und Stößel 32. Das Magnetdruckrohr 36 ist von einer Magnetwicklung 40 umgeben, die auf einem koaxial auf dem Magnetdruckrohr 36 sitzenden Spulenträger 41 aufgewickelt ist. Die Anschlüsse der Magnetwicklung 40 (nicht dargestellt) sind ebenso wie die elektrischen Anschlüsse von Drucksensor 24 und Wegsensor 37 in das Elektronikgehäuse 12 geführt.In the central bore 13, a control slide 25 is axially displaceably guided and has two control edges 26, 27 for controlling the three connection openings 17 to 19. On both sides of the two control edges 26, 27, the control slide 25 is each provided with an annular groove 28-30, the annular groove 28 being enclosed between the two control edges 26, 27, the annular groove 29 adjoining the control edge 26 and the annular groove 30 adjoining the control edge 28 connects. Each annular groove 28-30 extends over a certain axial region of the control slide 25. The control slide 25 is loaded on one end face by a return spring 31 which is supported on the housing side. On the other end face of the control slide 25 engages a plunger 32, which lies in an axial bore 33 aligned with the central bore 13 in the magnet housing 11 and is rigidly connected to the magnet armature 34 of a proportional magnet 35. The axial bore 33 is designed as a stepped bore with three bore sections 331, 332 and 333. The smallest diameter bore section 331 receives the plunger 32 and the adjoining bore section 332 with a medium diameter receives a magnetic pressure tube 36 in which the armature 34 is axially displaceably guided. In the third bore section 333 with the largest diameter, a displacement sensor or displacement sensor 37 is used, which closes the bore section 332 on the end face. The inductive displacement sensor 37 has a central bore 38, in which a ferrite core 39, which is axially displaceable with the magnet armature 34, lies. The electrical signal which can be removed from the displacement sensor 37 is a measure of the displacement path of the magnet armature 34 and plunger 32. The magnet pressure tube 36 is surrounded by a magnet winding 40 which is wound on a coil carrier 41 which is coaxially seated on the magnet pressure tube 36. The connections of the magnetic winding 40 (not shown) are the same as the electrical ones Connections of pressure sensor 24 and displacement sensor 37 guided into the electronics housing 12.

Im Elektronikgehäuse 12 ist die gesamte Regelelektronik untergebracht, die gemäß dem Blockschaltbild in Fig. 1 einen Druckregler 42, einen Lageregler 43 einen Begrenzer 44 und eine Verstärkerendstufe 45 umfaßt. Der Ausgang der Endstufe 45 steuert die Magnetwicklung 40 des Proportionalmagneten 35 an. Der Ausgang 46 des Drucksensors 24, an dem ein dem Druck in der Steuerbohrung 16 proportionales elektrisches Ausgangssignal ansteht, ist dem Istwerteingang 47 des Druckreglers 42 zugeführt. Am Sollwerteingang 48 des Druckreglers 42 liegt ein elektrisches Drucksollwertsignal an, das proportional einem vorgegebenen Solldruck ist. Zwischen elektrischem Drucksollwertsignal und vorgegebenem Solldruck besteht beispielsweise ein linearer Zusammenhang, wobei z.B. einem Drucksollwert von 100 bar eine Signalspannung von 4 V entspricht.The entire electronic control system is accommodated in the electronics housing 12, which according to the block diagram in FIG. 1 comprises a pressure regulator 42, a position regulator 43, a limiter 44 and an amplifier output stage 45. The output of the output stage 45 controls the magnetic winding 40 of the proportional magnet 35. The output 46 of the pressure sensor 24, at which an electrical output signal proportional to the pressure in the control bore 16 is present, is fed to the actual value input 47 of the pressure regulator 42. An electrical pressure setpoint signal, which is proportional to a predetermined setpoint pressure, is present at the setpoint input 48 of the pressure regulator 42. There is, for example, a linear relationship between the electrical pressure setpoint signal and the predetermined setpoint pressure, e.g. a signal voltage of 4 V corresponds to a pressure setpoint of 100 bar.

Der Ausgang 49 des Wegaufnehmers oder Wegsensors 37, an dem ein dem Steuerschieberhub proportionales elektrisches Ausgangssignal auftritt, ist mit dem Istwerteingang 50 des Lagereglers 43 verbunden. Der Ausgang des Lagereglers 43 ist der Verstärkerendstufe 45 zugeführt. An dem Sollwerteingang 51 des Lagereglers 43 liegt der Ausgang 52 des Begrenzers 44, der weiterhin zwei Eingänge 53 und 54 aufweist. An dem Eingang 53 ist der Ausgang 55 des Druckreglers 42 angeschlossen, während an dem Eingang 54 des Begrenzers 44 ein elektrisches Lagesollwertsignal liegt, das proportional einem vorgegebenen Lagesollwert oder Steuerschieberhub ist. Zwischen dem vorgegebenen Lagesollwert und dem elektrischen Lagesollwertsignal besteht ebenfalls ein linearer Zusammenhang, wobei beispielsweise ein gewünschter Steuerschieberhub von 1 mm einer Signalspannung von 5 V und ein Steuerschieberhub von 2 mm einer Signalspannung von 10 V entspricht. Der Begrenzer 44 ist derart ausgebildet, daß jeweils das kleinste Eingangssignal an seinen beiden Eingängen 52,53 auf seinen Ausgang 54 durchgeschaltet ist. Die elektrischen Sollwertsignale werden dem Druckregler 42 und dem Lageregler 43 extern über einen zentralen Anschlußstecker (nicht dargestellt) am Elektronikgehäuse 12 zugeführt. Über den gleichen Stecker erfolgt die Stromversorgung für die gesamte Regelelektronik und den Proportionalmagneten 35.The output 49 of the displacement sensor or displacement sensor 37, at which an electrical output signal proportional to the control slide stroke occurs, is connected to the actual value input 50 of the position controller 43. The output of the position controller 43 is fed to the amplifier output stage 45. The output 52 of the limiter 44, which also has two inputs 53 and 54, is located at the setpoint input 51 of the position controller 43. At the input 53, the output 55 of the pressure regulator 42 is connected, while at the input 54 of the limiter 44 there is an electrical position setpoint signal which is proportional to a predefined position setpoint or control spool stroke. There is also a linear relationship between the specified position setpoint and the electrical position setpoint signal, a desired control slide stroke of 1 mm corresponding to a signal voltage of 5 V and a control slide stroke of 2 mm corresponding to a signal voltage of 10 V. The limiter 44 is designed such that in each case the smallest input signal is switched through to its output 54 at its two inputs 52, 53. The electrical setpoint signals are supplied to the pressure controller 42 and the position controller 43 externally via a central connector (not shown) on the electronics housing 12. The power supply for the entire control electronics and the proportional magnet 35 takes place via the same connector.

In dem in der Zeichnung dargestellten Aufbau arbeitet das Proportionalventil als 3/2-Proportionalwegeventil mit übergeordnetem Druckregelkreis. Proportional dem Lagesollwert ergibt sich über den Lageregelkreis eine Steuerschieberposition, welche die Öffnungsquerschnitte zwischen den Steuerbohrungen 14 und 16 bzw. 16 und 15 bestimmt. Beide Steuerkanten 26 und 27 des Steuerschiebers 25 sind wirksam, wobei die Steuerkante 25 den Öffnungsquerschnitt zwischen den Steuerbohrungen 14 und 16 und die Steuerkante 27 den Öffnungsquerschnitt zwischen den Steuerbohrungen 16 und 15 bestimmt.In the structure shown in the drawing, the proportional valve works as a 3/2-way proportional valve with a higher-level pressure control circuit. Proportional to the position setpoint, a control slide position results via the position control loop, which determines the opening cross sections between the control bores 14 and 16 or 16 and 15. Both control edges 26 and 27 of the control slide 25 are effective, the control edge 25 determining the opening cross section between the control bores 14 and 16 and the control edge 27 determining the opening cross section between the control bores 16 and 15.

Der in der Steuerbohrung 16 anstehende Druck wird vom Drucksensor 24 erfaßt. Solange das vom Drucksensor 24 ausgegebene elektrische Druckistwertsignal den vorgegebenen Solldruck noch nicht erreicht hat, arbeitet das Proportionalventil mit Mengenfunktion, d.h. es stellt einen dem Steuerschieberhub entsprechenden Volumenstrom in der Steuerbohrung 16 ein, der über die Anschlußöffnung 19 einem Arbeitskreis A zufließt. Ist der Lagesollwert jedoch so vorgegeben, daß der Drucksollwert im Druckregler 42 vor dem Lagesollwert im Lageregler 43 erreicht wird, so wirkt der Ausgang des Druckreglers 42 auf den Sollwerteingang 51 des Lagereglers 43 - da der Begrenzer 44 jeweils das kleinste Eingangssignal auf seinen Ausgang 52 durchschaltet - und begrenzt den Steuerschieberhub und damit den Druck in der Steuerbohrung 16. Das Proportionalventil ist nunmehr von seiner Mengenfunktion in eine Druckregelfunktion übergegangen.The pressure in the control bore 16 is detected by the pressure sensor 24. As long as the electrical pressure actual value signal output by the pressure sensor 24 has not yet reached the predetermined target pressure, the proportional valve operates with a quantity function, ie it sets a volume flow in the control bore 16 corresponding to the control slide stroke, which flows into a working circuit A via the connection opening 19. However, if the position setpoint is specified such that the pressure setpoint in the pressure controller 42 is reached before the position setpoint in the position controller 43, the output of the pressure controller 42 acts on the setpoint input 51 of the position controller 43 - since the limiter 44 switches the smallest input signal through to its output 52 - and limits the spool stroke and thus the pressure in the Control bore 16. The proportional valve has now changed from its quantity function to a pressure control function.

Da am Begrenzer 44 das Eingangssignal mit dem niedrigsten Wert dominiert, ist es natürlich auch möglich, das Proportionalventil als reines Druckventil arbeiten zu lassen. Hierzu ist lediglich am Eingang 54 des Begrenzers 44 ein maximaler Lagesollwert vorzugeben, der bezüglich der Größe des elektrischen Sollwertsignals oberhalb der Signalspannung liegt, die durch Einstellung des Drucksollwerts am Druckregler 42 vorgegeben wird. In diesem Fall wirkt ausschließlich das Ausgangssignal des Druckreglers 42 auf den Lageregler 43 und die Einstellung des Steuerschiebers 25 erfolgt entsprechend dem gewünschten Druck in der Steuerbohrung 16.Since the input signal with the lowest value dominates at the limiter 44, it is of course also possible to have the proportional valve operate as a pure pressure valve. For this purpose, only a maximum position setpoint is to be specified at the input 54 of the limiter 44, which is above the signal voltage with respect to the size of the electrical setpoint signal, which is specified by setting the pressure setpoint at the pressure regulator 42. In this case, only the output signal of the pressure regulator 42 acts on the position regulator 43 and the setting of the control slide 25 takes place in accordance with the desired pressure in the control bore 16.

Betreibt man in dieser Weise das Proportionalventil als Druckventil, so sind zwei Einsatzfälle möglich. Bei der in der Zeichnung dargestellten Zweikantensteuerung des Steuerschiebers 25 wird eine Druckregel- bzw. Druckminderfunktion erreicht. Der Druck in der Steuerbohrung 16 wird auf einem vorgegebenen Solldruck eingeregelt, der unterhalb des in der Steuerbohrung 14 herrschenden Druckes liegt. Wird hingegen die Anschlußöffnung 19 verschlossen, und wird die Dichtungsschraube 21 in der Querbohrung 20 entfernt, so stehen die Steuerbohrungen 14 und 16 unabhängig von der Steuerschieberposition in ständiger Verbindung. Damit wird der an der Anschlußöffnung 17 herrschende Druck vom Drucksensor 24 erfaßt. Bei Ansteuerung des Proportionalmagneten 35 führt der Steuerschieber 25 eine sog. Einkantensteuerung durch, bei welcher lediglich die Steuerkante 27 wirksam ist und den Öffnungsquerschnitt zwischen den Steuerbohrungen 16 und 15 steuert. Das Druckventil arbeitet als Druckbegrenzungsventil und begrenzt den an der Anschlußöffnung 17 herrschende Druck auf einen vom Drucksollwertsignal am Sollwerteingang 48 des Druckreglers 42 vorgegebenen Solldruck.If the proportional valve is operated as a pressure valve in this way, two applications are possible. In the two-edge control of the control slide 25 shown in the drawing, a pressure control or pressure reducing function is achieved. The pressure in the control bore 16 is adjusted to a predetermined target pressure which is below the pressure prevailing in the control bore 14. If, on the other hand, the connection opening 19 is closed and the sealing screw 21 in the transverse bore 20 is removed, the control bores 14 and 16 are in constant communication regardless of the control slide position. The pressure prevailing at the connection opening 17 is thus detected by the pressure sensor 24. When the proportional magnet 35 is activated, the control slide 25 carries out a so-called single-edge control, in which only the control edge 27 is effective and controls the opening cross section between the control bores 16 and 15. The pressure valve works as a pressure relief valve and limits the pressure prevailing at the connection opening 17 a setpoint pressure predetermined by the pressure setpoint signal at the setpoint input 48 of the pressure regulator 42.

In Fig. 4 ist das Ventilgehäuse 10′ des Proportionalventils in etwas modifizierter Ausführung vergrößert dargestellt. Soweit Bohrungen, Kanäle und Anschlußöffnungen mit denen in Fig. 2 und 3 übereinstimmen, sind sie mit gleichen Bezugszeichen belegt. Im Ventilgehäuse 10 ist eine vierte, allerdings ungesteuerte Anschlußöffnung 56 vorgesehen, die im N6-Lochbild an der Stelle des Anschlusses B liegt. Die Anschlußöffnung 56 begrenzt eine Sackbohrung 57, die über insgesamt drei Verbindungsbohrungen 61,62,63 mit dem Druckkanal 22 verbunden ist. Die Verbindungsbohrungen 61 und 63 sind als Sackbohrungen von der einen Stirnseite des Ventilgehäuses 10 her eingebracht und dort verschlossen. Die Verbindungsbohrung 61 durchdringt dabei die Sackbohrung 57 und die Verbindungsbohrung 63 den radialen Verlängerungsabschnitt 59 der Steuerbohrung 16. Die beiden Verbindungsbohrungen 61 und 63 sind durch die als Sackbohrung radial eingebrachte und stirnseitig verschlossene Verbindungsbohrung 62 miteinander verbunden, die beide Verbindungsbohrungen 61,63 durchdringt. Die Verbindungsbohrung 62 läuft dabei versetzt zur Mittelbohrung 13 und schneidet diese nicht. Die Verbindungsbohrung 63 ist so gelegt, daß ihre Mündungsstelle im radialen Verlängerungsabschnitt 59 nahe der Mündungsstelle des Druckkanals 22 liegt. Mittels eines in den Verlängerungsabschnitt 59 eingebrachten Stopfens 64 können die Mündungsstellen von Druckkanal 22 und Verbindungsbohrung 63 gegenüber der Steuerbohrung 16 bzw. der Mittelbohrung 13 abgesperrt werden. Der Drucksensor 24 kann somit mit einem an der vierten Anschlußöffnung 56 anstehenden externen Druck beaufschlagt werden. Wird eine Druckerfassung an den anderen beiden Anschlußöffnungen 17,19 gewünscht, so ist der Stopfen 64 zu entfernen und die vierte Anschlußöffnung 56 zu verschließen.In Fig. 4 the valve housing 10 'of the proportional valve is shown enlarged in a slightly modified version. Insofar as bores, channels and connection openings correspond to those in FIGS. 2 and 3, they are given the same reference numerals. A fourth, but uncontrolled, connection opening 56 is provided in the valve housing 10, which is located at the location of the connection B in the N6 hole pattern. The connection opening 56 delimits a blind bore 57 which is connected to the pressure channel 22 via a total of three connecting bores 61, 62, 63. The connecting bores 61 and 63 are made as blind bores from one end face of the valve housing 10 and are closed there. The connection bore 61 penetrates the blind bore 57 and the connection bore 63 the radial extension section 59 of the control bore 16. The two connection bores 61 and 63 are connected to one another by the connection bore 62, which is radially introduced as a blind bore and is closed at the end and which penetrates both connection bores 61, 63. The connecting bore 62 runs offset to the central bore 13 and does not cut it. The connecting hole 63 is placed so that its mouth lies in the radial extension section 59 near the mouth of the pressure channel 22. By means of a plug 64 inserted into the extension section 59, the mouths of the pressure channel 22 and the connecting bore 63 can be blocked off from the control bore 16 or the central bore 13. The pressure sensor 24 can thus be subjected to an external pressure present at the fourth connection opening 56. If pressure detection at the other two connection openings 17, 19 is desired, the plug 64 must be removed and the fourth connection opening 56 closed.

Claims (12)

  1. Proportional valve having a valve housing (10) with connection openings (17, 18, 19), having a control spool (25), which is axially displaceable in a central bore (13) of the valve housing (10), for controlling the connection openings (17, 18, 19), having a proportional magnet (35) which actuates the control spool (25), the magnet armature (34) of which proportional magnet (35) is guided in a pressure tube (36) and its magnet housing (11) is connected to the valve housing (10), having a pressure sensor (24) which is integrated in the magnet housing (11), is acted upon by pressure from a connection opening (19) and generates an electrical output signal proportional to the pressure, and having a pressure controller (42) to which is supplied the electrical output signal of the pressure sensor (24) as the actual pressure value signal and an electrical required pressure value signal corresponding to a specified required pressure, characterized in that a pressure passage (22), which is in connection with the connection opening (19) and extends separately in the valve housing (10) and separated from the control spool (25) and the associated central bore (13), is provided for pressure action on the pressure sensor (24), which pressure passage (22) opens at the joint position of the valve housing and the magnet housing (10, 11) and there communicates with a connection hole (23) extending outside the pressure tube (36) in the magnet housing (11) as far as the pressure sensor (24).
  2. Valve according to Claim 1, characterized in that the pressure sensor (24) is inserted in the magnet housing (11) radially from the outside and is covered by an electronics casing (12) placed at the side onto the magnet housing (11) in order to accommodate at least the pressure controller (42).
  3. Valve according to Claim 1 or 2, characterized in that a displacement sensor (37) sensing the control spool stroke is integrated in the magnet housing (11), which displacement sensor (37) generates an electrical output signal proportional to the control spool stroke, in that a position controller (43) is provided, to which is supplied the electrical output signal of the displacement sensor (37), as an actual position value signal, and an electrical required position value signal proportional to the specified required position value, and in that the pressure controller and the position controller (42, 43) are connected to one another electrically in such a way that the respective output signal with the smaller electrical setting parameter is the significant one for the proportional magnet (35).
  4. Valve according to Claim 3, characterized in that the output of the position controller (43) is connected to the proportional magnet (35) by means of an amplifier stage (45), in that a limiter (44) with two inputs (53, 54) and one output (52) is provided which is configured in such a way that the respectively smallest input signal is switched through to the output (52), that one input (54) of the limiter (44) is occupied by the required position value signal and the other input (53) is connected to the output (55) of the pressure controller (42), and that the output (52) of the limiter (44) is connected to the required value input (51) of the position controller (43).
  5. Valve according to Claim 4, characterized in that the valve housing (10) has three controlled connection openings (17, 18, 19), of which the first is provided for connection to a pressure source (P), the second is provided for connection to a relief space (T) and the third is provided for connection to a hydraulic operating circuit (A), in that the control spool (25) has two control edges (26, 27), of which one controls the connection between the first and the third connection opening (17, 19) and the second controls the connection between the second and the third connection opening (18, 19), and in that the connection hole (23), in the magnet housing (11), leading to the pressure sensor (24) corresponds to a pressure passage (22), in the valve housing (10), leading to the third connection opening (19).
  6. Valve according to Claim 5, characterized in that the first and the third connection opening (17, 19) are in connection with one another via a transverse passage (20) which can be shut off in a liquid-tight manner by means of a sealing element (21), preferably a sealing screw, and in that the third connection opening (19) can be shut off from the connection end.
  7. Valve according to Claim 5 or 6, characterized in that the control spool (25) is guided so that it is axially displaceable in a central bore (13) of the valve housing (10) and in that one control hole (14-16), radial with respect to the central bore (13), respectively leads from the connection openings (17-19) to the central bore (13) and opens into the latter.
  8. Valve according to Claim 7, characterized in that the pressure passage (22) for the pressure sensor (24) opens into the control hole (16) associated with the third connection opening (19).
  9. Valve according to one of Claims 5-8, characterized in that the valve housing (10) has an uncontrolled fourth connection opening (56) to which the pressure passage (22) can be connected.
  10. Valve according to Claims 8 and 9, characterized in that a connecting hole (61-63) leading away from the connection opening (56) opens into the control hole (16) near the emergence position of the pressure passage (22), in that the emergence position of the connecting hole (61-63) and the pressure passage (22) is located in an extension section (59) of the control hole (16) extending radially beyond the central bore (13), and in that the extension section (59) can be shut off from the emergence positions.
  11. Valve according to one of Claims 2-10, characterized in that the position controller (43) and further electronics components, such as an amplifier end stage (45), are additionally accommodated in the electronics casing (12) fastened to the magnet housing (11).
  12. Valve according to Claim 11, characterized in that the electronics casing (12) has a multi-pole connection plug for the electricity supply and for the required value signals of the pressure controller and position controller (42, 43).
EP89114404A 1988-09-03 1989-08-04 Proportional valve Expired - Lifetime EP0357964B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE3829992 1988-09-03
DE3829992A DE3829992A1 (en) 1988-09-03 1988-09-03 PROPORTIONAL VALVE

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EP0357964A2 EP0357964A2 (en) 1990-03-14
EP0357964A3 EP0357964A3 (en) 1991-02-06
EP0357964B1 true EP0357964B1 (en) 1994-12-07

Family

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EP89114404A Expired - Lifetime EP0357964B1 (en) 1988-09-03 1989-08-04 Proportional valve

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EP (1) EP0357964B1 (en)
JP (1) JP2865728B2 (en)
DE (2) DE3829992A1 (en)

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FR2683337B1 (en) * 1991-10-31 1994-01-07 Bendix Europe Services Technique PRESSURE REGULATING DEVICE FOR HYDRAULIC CIRCUIT.
DE19643788A1 (en) * 1996-10-30 1998-05-07 Voith Turbo Kg Electrohydraulic pressure control device and method for converting electrical control signals into hydraulic control pressure
DE19710318A1 (en) * 1997-03-13 1998-09-17 Mannesmann Rexroth Ag Directional control valve
US6116269A (en) * 1998-07-07 2000-09-12 Fasco Controls Corporation Solenoid pressure transducer
DE19929152A1 (en) * 1999-06-25 2001-01-04 Voith Turbo Kg Valve device for controlling the functioning of a hydrodynamic retarder
DE19949756B4 (en) * 1999-10-15 2009-09-24 Zf Friedrichshafen Ag Electro-hydraulic actuator
DE19959021B4 (en) * 1999-12-08 2004-04-08 Robert Bosch Gmbh Proportional solenoid valve
DE10209333A1 (en) * 2002-03-02 2003-09-18 Bosch Rexroth Ag Pressure valve has control piston with converter to change position information into electrical signal for output pressure
DE102005004080A1 (en) * 2005-01-28 2006-08-03 Robert Bosch Gmbh Electromagnetic pressure control valve arrangement for hydraulic clutch, has electronic part with pressure sensor measuring hydraulic pressure applied to load connection, where sensor is placed on magnetic part end, which faces valve part
DE102008029641A1 (en) 2008-06-23 2009-12-24 Robert Bosch Gmbh Control arrangement with a pressure relief valve
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Also Published As

Publication number Publication date
DE3829992A1 (en) 1990-03-15
EP0357964A2 (en) 1990-03-14
JP2865728B2 (en) 1999-03-08
JPH02107879A (en) 1990-04-19
EP0357964A3 (en) 1991-02-06
DE58908726D1 (en) 1995-01-19

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